Non-CpG DNA methylation

This 2017 Korean review compared and contrasted CpG and non-CpG DNA methylation:

“Non-CpG methylation is restricted to specific cell types, such as pluripotent stem cells, oocytes, neurons, and glial cells..accumulation of methylation at non-CpG sites and CpG sites in neurons seems to be involved in development and disease etiology.

Non-CpG methylation is established during postnatal development of the hippocampus and its levels increase over time. Similarly, non-CpG methylation is scarcely detected in human fetal frontal cortex, but is dramatically increased in later life. This increase in non-CpG methylation occurs simultaneously with synaptic development and increases in synaptic density.

In contrast, CpG methylation occurs during early development and does not increase over time.

Neurons have considerably higher levels of non-CpG methylation than glial cells..The human male ES [embryonic stem] cell line (H1) is more highly methylated than the female ES cell line (H9).

Among the different types of non-CpG methylation (CpA [adenosine], CpT [thymine], and CpC), methylation is most common at CpA sites. For instance, in human iPS [induced pluripotent stem] cells, 5mCs are found in approximately 68.31%, 7.81%, 1.99%, and 1.05% of CpG, CpA, CpT, and CpC sites, respectively.”


The reviewers’ referenced statement:

“..CpG methylation occurs during early development and does not increase over time.”

was presented outside of its context. The 2013 cited source’s statement was restricted to selected points in the rodent hippocampus:

“Consistent with a recent study of the cortex, time-course analyses revealed that CpH [non-CpG] methylation at the selected loci was established during postnatal development of the hippocampus and was then present throughout life, whereas CpG methylation was established during early development. Maturing mouse hippocampal neurons in vitro also showed a gradual increase in CpH, but not CpG, methylation over time.”

Epigenetic study methodologies improved in 2017 had more information on CpA methylation.

http://www.mdpi.com/2073-4425/8/6/148/htm “CpG and Non-CpG Methylation in Epigenetic Gene Regulation and Brain Function”

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